a 2.0 x 103 kg car (page 1 from 1)

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Problems

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Answer to A 2.1 x 103 kg car starts from rest at the top of a driveway that is sloped at an angle of 20 degress with the horizonta...

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Get an answer for 'A 2.98 × 103 kg car requires 6.0 kJ of work tomove from rest to some final speed. Duringthis time, the car moves 29.8 m.Neglecting friction, find  a) the final speed.Answer in units of m/s. b) the net horizontal force exerted on the car.Answer in units of N.    ' and find homework help for other Physics questions at eNotes

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A 2.1 x 10^3 kg car starts from rest at the top of a driveway that is sloped at an angle of 20.0 degrees with the horizontal. An average friction force of 4.0 x 10^3 N impedes the car's motion so that the car's speed at the bottom of the driveway is 3.8 m/s. What is the length of the driveway?

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provided by tarction between the wheels asnd the road. The other is a 909 N resistiive force due to various frictional forces. How far must the car travel for its speed to reach 2.1 m/s? Answer in units of m.

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As the car goes around the curve, the centripetal force is directed A. Toward the center of the circular curve B. Away from the center of the circular curve C. Tangent to the curve direction of motion D. Tangent to the curve opposite the direction of motion

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View Notes - Work and Energy Student from PHY 302K at UT. Work and Energy Chapter 5 Work Definition of Work What do you think? Work is done on an object

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Answer to A 1.5 x 103-kg car is pulled horizontally by a tow truck. The tension in the tow rope is 2.5 x 103N, and a 2.0 x 102 N f...

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the wheels and the road. The other is a 950 N resistiive force due to various frictional forces. How far must the car travel for its speed to reach 2.0 m/s? Answer in units of m.

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CAN ANYONE HELP ME SOLVE THIS PROBLEM?! A 2.0x10^3 kg car accelerates from rest under the actions of two forces. One is a forward force of 1140 N provided by traction between the wheels and the road. The other is a 950 N resistive force due to various frictional forces. Use the work-kinetic energy theorem to determine how far the car must travel for the speed to reach 2.0 m/s. Work-Kinetic Energy Theorem: Wnet=1/2mv^2-1/2mv^2

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The magnitude of the acceleration is given by v2/r, where v is the speed, and r is the radius of the path.

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a 2.2*10^3 kg car accelerates from rest under the action of two forces. One is a forward force of 1143N provided by traction between the wheels and the road. The other is a 909N resistive force due to various frictional forces. How far must the car travel for its speed to reach 2.8m/s. Answer in units m